Simulation and calibration of a compact millimeter-wavelength Fourier transform spectrometer

Liu, Mira; Pan, Z.; Thakur, R. Basu; Meyer, S. S.

doi:10.1364/ao.397312

Cited by 3 publications

(2 citation statements)

References 8 publications

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“…7. This is a major achievement over classical optical FTSs where reconstruction of multi-path and alignment issues are far less accurate [5]. Our error is fundamentally set by circuit non-idealities across the chip, caused by impedance mismatches originating from practical limits of fabrication.…”

Section: A Tmentioning

confidence: 99%

Development of Superconducting On-chip Fourier Transform Spectrometers

et al. 2022

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Superconducting On-chip Fourier Transform Spectrometers (SOFTS) are broadband, ultra-compact and electronic interferometers. SOFTS will enable kilo-pixel spectro-imaging focal planes, enhancing sub-millimeter astrophysics and cosmology. Particular applications include cluster astrophysics, cosmic microwave background (CMB) science, and line intensity mapping. This article details the development, design and bench-marking of radio frequency (RF) on-chip architecture of SOFTS for Ka and W-bands.

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Section: A Tmentioning

confidence: 99%

Development of Superconducting On-chip Fourier Transform Spectrometers

et al. 2022

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“…To better understand our measurements in Sec 4, we created a modified ray-trace simulation of the FTS, which is detailed in a companion paper [16]. It also offers an improved way to balance the instrument non-idealites with constraints of size and instrument requirements.…”

Section: Ray-trace Simulations a Ray Tracementioning

confidence: 99%

Compact millimeter-wavelength Fourier-transform spectrometer

et al. 2019

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We have constructed a Fourier-transform spectrometer (FTS) operating between 50 and 330 GHz with minimum volume (355 × 260 × 64 mm) and weight (13 lbs) while maximizing optical throughput (100 mm 2 sr) and optimizing the spectral resolution (4 GHz). This FTS is designed as a polarizing Martin-Puplett interferometer with unobstructed input and output in which both input polarizations undergo interference. The instrument construction is simple with mirrors milled on the box walls and one motorized stage as the single moving element. We characterize the performance of the FTS, compare the measurements to an optical simulation, and discuss features that relate to details of the FTS design. The simulation is also used to determine the tolerance of optical alignments for the required specifications. We detail the FTS mechanical design and provide the control software as well as the analysis code online.

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Cryogenic spectrometer for measuring the far-IR to millimeter-wave absorptivity of cosmic analog dusts

et al. 2021

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We report on the design, construction, and performance of a custom apparatus built to measure the frequency- and temperature-dependent absorptivity of millimeter-wave light by cosmic analog dusts. We highlight the unique challenges faced as well as a few key innovations that are part of the instrument. Among those is an ultra-compact Fourier transform spectrometer. We have measured its effective frequency range and FWHM resolution to be 150–2100 GHz and ∼ 45 G H z , respectively. Another innovation is a cold sample positioner whose temperature can be controlled within the range of 3.7–50 K. The use of a pulse-tube cryocooler results in a pulse-synchronous signal that dominates the detector (bolometer) signal. Methods used to address that challenge are also presented.

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Simulation and calibration of a compact millimeter-wavelength Fourier transform spectrometer

Cited by 3 publications

References 8 publications

Development of Superconducting On-chip Fourier Transform Spectrometers

Development of Superconducting On-chip Fourier Transform Spectrometers

Compact millimeter-wavelength Fourier-transform spectrometer

Cryogenic spectrometer for measuring the far-IR to millimeter-wave absorptivity of cosmic analog dusts

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